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Copepod grazing and their impact on phytoplankton standing stock and production in a tropical coastal water during the different seasons

DRS at CSIR-National Institute of Oceanography

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Title Copepod grazing and their impact on phytoplankton standing stock and production in a tropical coastal water during the different seasons
 
Creator Jagadeesan, L.
Jyothibabu, R.
Arunpandi, N.
Parthasarathi, S.
 
Subject Aquatic communities::Phytoplankton
Crustaceans::Reproduction and development
Aquatic communities::Zooplankton
Crustaceans::Taxonomy and morphology
 
Description The grazing rate of copepods on the total and size-fractionated phytoplankton biomass in a coastal environment (off Kochi, southwest coast of India) were measured during pre-monsoon (PRM), peak southwest monsoon (PKSWM), late southwest monsoon (LSWM) and post-southwest monsoon (PSWM). The phytoplankton standing stock (chlorophyll a-Chl. a) and growth rate (GR) were less during the PRM (Chl. a 0.58 mg m-3; GR 0.23 ? 0.02) and PSWM (Chl. a 0.89 mg m-3; GR 0.30 ? 0.05) compared to PKSWM (Chl. a 6.67 mg m-3; GR 0.43 ? 0.02) and LSWM (Chl. a 4.09 mg m-3; GR 0.40 ? 0.04). The microplankton contribution to the total Chl. a was significant during the PKSWM (41.83%) and LSWM (45.72%). Copepod density was lesser during the PRM (1354 No m-3) and PSWM (1606 No m-3) than during PKSWM and LSWM (4571 and 3432 No m-3, respectively). Seasonal changes in phytoplankton biomass, phytoplankton size structure, and copepod community were closely related to the hydrographical transformations in the study domain. Dominant calanoid copepods in the study region ingested 8.4 to 14.2% of their daily ration from phytoplankton during the PRM and PSWM, which increased to >50% during the PKSWM and LSWM. The cyclopoid Oithona similis was abundant during the PKSWM, ingesting only 21% of their daily ration from phytoplankton. Temporal variation in the phytoplankton biomass and copepod species composition caused differences in community level top-down control. The copepod community ingestion on phytoplankton was high during the LSWM (18,583 μg C m-3d-1), followed by PKSWM (9050 μg C m-3d-1), PSWM (1813 μg C m-3d-1), and PRM (946 μg C m-3d-1). During the low Chl. a period (PRM and PSWM), dominant calanoid copepods showed a positive selectivity for the micro- and nano-phytoplankton size fractions, whereas during the high Chl. a period (PKSWM and LSWM), they showed a positive selection for nano-phytoplankton fractions. Irrespective of the seasons, dominant calanoid copepods showed a negative selection of pico-phytoplankton fraction. The cyclopoid O. similis and Poecilostomatoid Corycaeus danae showed a positive selection of nano- and pico-phytoplankton fractions rather than micro-fraction. The grazing pressure of copepod community ingestion on micro-fraction was less (0.56% of the phytoplankton biomass and 1.06% of the phytoplankton production) during the PKSWM. This study provides, for the first time, clear findings on the seasonal variation in the top-down control of phytoplankton by copepods in a tropical coastal water ecosystem and discusses its implications on phytoplankton blooming, plankton food web, and biogeochemistry
 
Date 2017-03-01T11:13:36Z
2017-03-01T11:13:36Z
2017
 
Type Journal Article
 
Identifier Environmental Monitoring and Assessment, vol.189(3); 2017; No.105 doi:10.1007/s10661-017-5804-y
http://drs.nio.org/drs/handle/2264/5102
 
Language en
 
Rights An edited version of this paper was published by Springer. This paper is for R & D purpose and Copyright [2017] Springer.
 
Publisher Springer